Exactly the same. Mass is the same everywhere. The weight will be 1/6 less on the moon though.
Because the gravitational force between any two objects depends on the product of both their masses. The object's weight on earth depends on the object's mass and the earth's mass, whereas its weight on the moon depends on the object's mass and the moon's mass. Since the moon's mass is very different from the earth's mass, the object's weight is also different there.
An object transported from the Earth to the moon has a different weight and same mass.
No. The mass of an object does not change. However and object's weight, which is a function of mass and gravity, is less on the moon than on earth.
The object's mass doesn't change, no matter where it is or where it goes.
The Earth Answer: As far as the "Why?" This is because the formula to calculate the magnitude of gravitaiona; attraction between two objects depends on the mass of the onjects. The formula is: Fg = G (m1m2/D2) Where: Fg = The force of gravity between objectsM = MassG = The universal gravitational constantD = The distance between the two objects Substituting values for the masses of the object, the moon and the Earth and canceling out the constant values gives us: F (Earth and Object)/ F (Moon and Object) = Mass Earth/Mass Moon As the mass of the Earth is significantly larger than the mass of the moon Mass Earth/Mass Moon =80) the attraction of the Earth is stronger and the object is pulled towards the Earth.
Because the gravitational force between any two objects depends on the product of both their masses. The object's weight on earth depends on the object's mass and the earth's mass, whereas its weight on the moon depends on the object's mass and the moon's mass. Since the moon's mass is very different from the earth's mass, the object's weight is also different there.
An object transported from the Earth to the moon has a different weight and same mass.
No. The mass of an object does not change. However and object's weight, which is a function of mass and gravity, is less on the moon than on earth.
there is no change in the mass of body
The object's mass doesn't change, no matter where it is or where it goes.
The mass of an object itself does not change on the moon. However, an object's weight is less than it would be on Earth because the moon's gravity is weaker than Earth's gravity.
The Earth Answer: As far as the "Why?" This is because the formula to calculate the magnitude of gravitaiona; attraction between two objects depends on the mass of the onjects. The formula is: Fg = G (m1m2/D2) Where: Fg = The force of gravity between objectsM = MassG = The universal gravitational constantD = The distance between the two objects Substituting values for the masses of the object, the moon and the Earth and canceling out the constant values gives us: F (Earth and Object)/ F (Moon and Object) = Mass Earth/Mass Moon As the mass of the Earth is significantly larger than the mass of the moon Mass Earth/Mass Moon =80) the attraction of the Earth is stronger and the object is pulled towards the Earth.
The mass on the moon will remain the same, 20 kg If the object's mass is 20 kg, then it's 20 kg. On Earth, on the moon, on Mars, or floating weightless in a space ship coasting from one of them to another. Weight depends on where you are, but mass doesn't.
That is its mass which does not change on earth, moon, or anywhere.
Gravity is determined by the mass of an object. An object with twice the mass will have twice the gravitational pull. Since the moon is much smaller (has a lot less mass) than earth, the gravity on the moon is less than on earth.
Yes, but the weight of that mass will be different.
The strength of gravity of an object is proportional to its mass. The moon has much less mass than earth does.